#
# Copyright (C) 2021 Red Hat, Inc.
#
# This copyrighted material is made available to anyone wishing to use,
# modify, copy, or redistribute it subject to the terms and conditions of
# the GNU General Public License v.2, or (at your option) any later version.
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY expressed or implied, including the implied warranties of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General
# Public License for more details.  You should have received a copy of the
# GNU General Public License along with this program; if not, write to the
# Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
# 02110-1301, USA.  Any Red Hat trademarks that are incorporated in the
# source code or documentation are not subject to the GNU General Public
# License and may only be used or replicated with the express permission of
# Red Hat, Inc.
#
import os
import blivet.util

from subprocess import CalledProcessError

from pyanaconda.anaconda_loggers import get_module_logger
from pyanaconda.core.configuration.anaconda import conf
from pyanaconda.core.glib import format_size_full, create_new_context, Variant, GError
from pyanaconda.core.i18n import _
from pyanaconda.core.path import set_system_root, make_directories
from pyanaconda.core.util import execWithRedirect
from pyanaconda.modules.common.errors.installation import PayloadInstallationError
from pyanaconda.modules.common.task import Task
from pyanaconda.modules.common.constants.objects import DEVICE_TREE, BOOTLOADER
from pyanaconda.modules.common.constants.services import STORAGE
from pyanaconda.modules.common.structures.storage import DeviceData

import gi
gi.require_version("OSTree", "1.0")
gi.require_version("Gio", "2.0")
gi.require_version("RpmOstree", "1.0")
from gi.repository import RpmOstree, OSTree, Gio

log = get_module_logger(__name__)


def safe_exec_with_redirect(cmd, argv, successful_return_codes=(0,), **kwargs):
    """Like util.execWithRedirect, but treat errors as fatal.

    :raise: PayloadInstallationError if the call fails for any reason
    """
    rc = execWithRedirect(cmd, argv, **kwargs)

    if rc not in successful_return_codes:
        raise PayloadInstallationError(
            "The command '{}' exited with the code {}.".format(" ".join([cmd] + argv), rc)
        )


class PrepareOSTreeMountTargetsTask(Task):
    """Task to prepare OSTree mount targets."""

    def __init__(self, sysroot, physroot, data):
        """Create a new task.

        :param str sysroot: a path to the system root
        :param str physroot: a path to the physical root
        :param data: an RPM OSTree configuration
        """
        super().__init__()
        self._data = data
        self._sysroot = sysroot
        self._physroot = physroot
        self._internal_mounts = []

    @property
    def name(self):
        return "Prepare OSTree mount targets"

    def _setup_internal_bindmount(self, src, dest=None,
                                  src_physical=True,
                                  bind_ro=False,
                                  recurse=True):
        """Internal API for setting up bind mounts between the physical root and sysroot

        Also ensures we track them in self._internal_mounts so we can cleanly unmount them.

        Currently, blivet sets up mounts in the physical root. We used to unmount them and remount
        them in the sysroot, but since 664ef7b43f9102aa9332d0db5b7d13f8ece436f0 we now just set up
        bind mounts.

        :param src: Source path, will be prefixed with physical or sysroot
        :param dest: Destination, will be prefixed with sysroot (defaults to same as src)
        :param src_physical: Prefix src with physical root
        :param bind_ro: Make mount read-only
        :param recurse: Use --rbind to recurse, otherwise plain --bind
        """
        # Default to the same basename
        if dest is None:
            dest = src

        # Almost all of our mounts go from physical to sysroot
        if src_physical:
            src = self._physroot + src
        else:
            src = self._sysroot + src

        # Canonicalize dest to the full path
        dest = self._sysroot + dest

        if bind_ro:
            safe_exec_with_redirect("mount", ["--bind", src, src])
            safe_exec_with_redirect("mount", ["--bind", "-o", "remount,ro", src, src])
        else:
            # Create missing directories for user defined mount points
            if not os.path.exists(dest):
                make_directories(dest)

            # Recurse for non-ro binds so we pick up sub-mounts
            # like /sys/firmware/efi/efivars.
            if recurse:
                bindopt = '--rbind'
            else:
                bindopt = '--bind'
            safe_exec_with_redirect("mount", [bindopt, src, dest])

        self._internal_mounts.append(src if bind_ro else dest)

    def _handle_var_mount_point(self, existing_mount_points):
        """Handle /var mount point

        If the admin didn't specify a mount for /var, we need to do the default ostree one.
        Otherwise, bind it.
        https://github.com/ostreedev/ostree/issues/855

        :param [] existing_mount_points: a list of existing mount points
        """
        var_root = '/ostree/deploy/' + self._data.osname + '/var'
        if existing_mount_points.get("/var") is None:
            self._setup_internal_bindmount(var_root, dest='/var', recurse=False)
        else:
            self._setup_internal_bindmount('/var', recurse=False)

    def _fill_var_subdirectories(self):
        """Add subdirectories to /var

        Once we have /var, start filling in any directories that may be required later there.
        We explicitly make /var/lib, since systemd-tmpfiles doesn't have a --prefix-only=/var/lib.
        We rely on 80-setfilecons.ks to set the label correctly.

        Next, run tmpfiles to make subdirectories of /var. We need this for both mounts like
        /home (really /var/home) and %post scripts might want to write to e.g. `/srv`, `/root`,
        `/usr/local`, etc. The /var/lib/rpm symlink is also critical for having e.g. `rpm -qa`
        work in %post. We don't iterate *all* tmpfiles because we don't have the matching NSS
        configuration inside Anaconda, and we can't "chroot" to get it because that would require
        mounting the API filesystems in the target.
        """
        make_directories(self._sysroot + '/var/lib')
        self._create_tmpfiles('/var/home')
        self._create_tmpfiles('/var/roothome')
        self._create_tmpfiles('/var/lib/rpm')
        self._create_tmpfiles('/var/opt')
        self._create_tmpfiles('/var/srv')
        self._create_tmpfiles('/var/usrlocal')
        self._create_tmpfiles('/var/mnt')
        self._create_tmpfiles('/var/media')
        self._create_tmpfiles('/var/spool')
        self._create_tmpfiles('/var/spool/mail')

    def _create_tmpfiles(self, path):
        """Run systemd-tmpfiles --create for the given path."""

        # According to systemd-tmpfiles(8), the return values are:
        #  0 → success
        # 65 → so some lines had to be ignored, but no other errors
        # 73 → configuration ok, but could not be created
        #  1 → other error
        # Therefore we ignore error 65, since this is coming from
        # the payload itself and the actual execution of it was fine

        safe_exec_with_redirect(
            "systemd-tmpfiles", [
                "--create",
                "--boot",
                "--root=" + self._sysroot,
                "--prefix=" + path
            ],
            successful_return_codes=(0, 65)
        )

    def _handle_api_mount_points(self):
        """Handle API mount points

        Explicitly do API (sysfs, tmpfs,...) mounts; some of these may be tracked by blivet, but
        we'll skip them later.
        """
        for path in ("/dev", "/proc", "/run", "/sys"):
            self._setup_internal_bindmount(path)

    def _handle_other_mount_points(self, existing_mount_points):
        """Handle other mount points

        Handle mounts like /boot (except avoid /boot/efi; we just need the  toplevel), and any
        admin-specified points like /home (really /var/home). Note we already handled /var
        earlier. Avoid recursion since sub-mounts will be in the list too.  We sort by length as
        a crude hack to try to simulate the tree relationship; it looks like this is handled in
        blivet in a different way.

        :param [] existing_mount_points: a list of existing mount points
        """
        for mount in sorted(existing_mount_points, key=len):
            if mount in ('/', '/var', "/dev", "/proc", "/run", "/sys"):
                continue
            self._setup_internal_bindmount(mount, recurse=False)

    def run(self):
        """Run the task.

        :return: list of bindmounts created for internal use
        :rtype: list of str
        """
        device_tree = STORAGE.get_proxy(DEVICE_TREE)
        mount_points = device_tree.GetMountPoints()

        # Make /usr readonly like ostree does at runtime normally
        self._setup_internal_bindmount('/usr', bind_ro=True, src_physical=False)

        self._handle_api_mount_points()

        self._handle_var_mount_point(mount_points)
        self._fill_var_subdirectories()

        self._handle_other_mount_points(mount_points)

        # And finally, do a nonrecursive bind for the sysroot
        self._setup_internal_bindmount("/", dest="/sysroot", recurse=False)

        return self._internal_mounts


class TearDownOSTreeMountTargetsTask(Task):
    """Task to tear down OSTree mount targets."""

    def __init__(self, mount_points):
        super().__init__()
        self._internal_mounts = mount_points

    @property
    def name(self):
        return "Tear down OSTree mount targets"

    def run(self):
        """Run the installation task."""
        for mount_point in reversed(self._internal_mounts):
            try:
                blivet.util.umount(mount_point)
            except (OSError, CalledProcessError) as e:
                log.debug("Unmounting %s has failed: %s", mount_point, str(e))


class CopyBootloaderDataTask(Task):
    """Task to copy OSTree bootloader data."""

    def __init__(self, sysroot, physroot):
        """Create a new task.

        :param str sysroot: a path to the system root
        :param str physroot: a path to the physical root
        """
        super().__init__()
        self._sysroot = sysroot
        self._physroot = physroot

    @property
    def name(self):
        return "Copy OSTree bootloader data"

    def run(self):
        """Run the installation task.

        :raise PayloadInstallationError: if the installation fails
        """
        try:
            self._run()
        except (OSError, RuntimeError) as e:
            raise PayloadInstallationError("Failed to copy bootloader data: {}".format(e)) from e

    def _run(self):
        """Copy bootloader data files from the deployment checkout to the target root.

        See https://bugzilla.gnome.org/show_bug.cgi?id=726757 This happens once, at installation
        time. extlinux ships its modules directly in the RPM in /boot. For GRUB2, Anaconda installs
        device.map there.  We may need to add other bootloaders here though (if they can't easily
        be fixed to *copy* data into /boot at install time, instead of shipping it in the RPM).
        """
        bootloader = STORAGE.get_proxy(BOOTLOADER)
        is_efi = bootloader.IsEFI()

        physboot = self._physroot + '/boot'
        ostree_boot_source = self._sysroot + '/usr/lib/ostree-boot'

        if not os.path.isdir(ostree_boot_source):
            ostree_boot_source = self._sysroot + '/boot'

        for fname in os.listdir(ostree_boot_source):
            srcpath = os.path.join(ostree_boot_source, fname)

            # We're only copying directories
            if not os.path.isdir(srcpath):
                continue

            # Special handling for EFI; first, we only want to copy the data if the system is
            # actually EFI (simulating grub2-efi being installed).  Second, as it's a mount point
            # that's expected to already exist (so if we used copytree, we'd traceback). If it
            # doesn't, we're not on a UEFI system, so we don't want to copy the data.
            if not fname == 'efi' or is_efi and os.path.isdir(os.path.join(physboot, fname)):
                log.info("Copying bootloader data: %s", fname)
                safe_exec_with_redirect('cp', ['-r', '-p', srcpath, physboot])

            # Unfortunate hack, see https://github.com/rhinstaller/anaconda/issues/1188
            efi_grubenv_link = physboot + '/grub2/grubenv'
            if not is_efi and os.path.islink(efi_grubenv_link):
                os.unlink(efi_grubenv_link)


class InitOSTreeFsAndRepoTask(Task):
    """Task to initialize OSTree filesystem and repository."""

    def __init__(self, physroot):
        """Create a new task.

        :param str physroot: a path to the physical root
        """
        super().__init__()
        self._physroot = physroot

    @property
    def name(self):
        return "Initialize OSTree file system and repository"

    def run(self):
        """Initialize the filesystem.

        This will create the repository as well.
        """
        safe_exec_with_redirect(
            "ostree",
            ["admin",
             "--sysroot=" + self._physroot,
             "init-fs", self._physroot]
        )


class ChangeOSTreeRemoteTask(Task):
    """Task to change OSTree remote."""

    def __init__(self, data, physroot=None, sysroot=None):
        """Create a new task.

        Specify the physical root to use it as sysroot, or the system
        root to use it as sysroot. If you specify both roots, we will
        use the system root.

        :param str physroot: a path to the physical root or None
        :param str sysroot: a path to the system root or None
        """
        super().__init__()
        self._data = data
        self._physroot = physroot
        self._sysroot = sysroot

    @property
    def name(self):
        return "Change OSTree remote"

    def run(self):
        """Run the task.

        At the beginning of the installation, we use the physical root
        as sysroot, because we haven't yet made a deployment.

        At the end of the installation, we use the system root as sysroot.
        Following up on the "remote delete" earlier, we removed the remote
        from /ostree/repo/config. But we want it in /etc, so re-add it to
        /etc/ostree/remotes.d, using the sysroot path. However, we ignore
        the case where the remote already exists, which occurs when the
        content itself provides the remote config file. Note here we use
        the deployment as sysroot, because it's that version of /etc that
        we want.
        """
        sysroot_file = Gio.File.new_for_path(
            self._sysroot or self._physroot
        )

        # Create a new object for the sysroot.
        sysroot = OSTree.Sysroot.new(sysroot_file)
        sysroot.load(cancellable=None)

        # Retrieve the OSTree repository in the sysroot.
        repo = sysroot.get_repo(None)[1]

        # We don't support resuming from interrupted installs.
        repo.set_disable_fsync(True)

        # Add a remote if it doesn't exist.
        repo.remote_change(
            sysroot_file if self._sysroot else None,
            OSTree.RepoRemoteChange.ADD_IF_NOT_EXISTS,
            self._data.remote,
            self._data.url,
            self._get_remote_options(),
            cancellable=None
        )

    def _get_remote_options(self):
        """Get the remote options."""
        remote_options = {}

        if not self._data.gpg_verification_enabled:
            remote_options['gpg-verify'] = Variant('b', False)

        if not conf.payload.verify_ssl:
            remote_options['tls-permissive'] = Variant('b', True)

        return Variant('a{sv}', remote_options)


class ConfigureBootloader(Task):
    """Task to configure bootloader after OSTree setup."""

    def __init__(self, sysroot):
        """Create a new task.

        :param str sysroot: a path to the system root
        """
        super().__init__()
        self._sysroot = sysroot

    @property
    def name(self):
        return "Configure OSTree bootloader"

    def run(self):
        self._move_grub_config()
        self._set_kargs()

    def _move_grub_config(self):
        """If using GRUB2, move its config file, also with a compatibility symlink."""
        boot_grub2_cfg = self._sysroot + '/boot/grub2/grub.cfg'
        target_grub_cfg = self._sysroot + '/boot/loader/grub.cfg'

        if os.path.isfile(boot_grub2_cfg):
            log.info("Moving %s -> %s", boot_grub2_cfg, target_grub_cfg)
            os.rename(boot_grub2_cfg, target_grub_cfg)
            os.symlink('../loader/grub.cfg', boot_grub2_cfg)

    def _set_kargs(self):
        """Set kernel arguments via OSTree-specific utils.

        OSTree owns the bootloader configuration, so here we give it an argument list computed
        from storage, architecture and such.
        """

        # Skip kernel args setup for dirinstall, there is no bootloader or rootDevice setup.
        if conf.target.is_directory:
            return

        bootloader = STORAGE.get_proxy(BOOTLOADER)
        device_tree = STORAGE.get_proxy(DEVICE_TREE)

        root_name = device_tree.GetRootDevice()
        root_data = DeviceData.from_structure(
            device_tree.GetDeviceData(root_name)
        )

        set_kargs_args = ["admin", "instutil", "set-kargs"]
        set_kargs_args.extend(bootloader.GetArguments())
        set_kargs_args.append("root=" + device_tree.GetFstabSpec(root_name))

        if root_data.type == "btrfs subvolume":
            set_kargs_args.append("rootflags=subvol=" + root_name)

        safe_exec_with_redirect("ostree", set_kargs_args, root=self._sysroot)


class DeployOSTreeTask(Task):
    """Task to deploy OSTree."""

    def __init__(self, data, physroot):
        """Create a new task.

        :param str physroot: a path to the physical root
        :param data: an RPM OSTree configuration
        """
        super().__init__()
        self._data = data
        self._physroot = physroot

    @property
    def name(self):
        return "Deploy OSTree"

    def run(self):
        # Variable substitute the ref: https://pagure.io/atomic-wg/issue/299
        ref = RpmOstree.varsubst_basearch(self._data.ref)

        self.report_progress(_("Deployment starting: {}").format(ref))

        safe_exec_with_redirect(
            "ostree",
            ["admin",
             "--sysroot=" + self._physroot,
             "os-init",
             self._data.osname]
        )

        log.info("ostree admin deploy starting")

        safe_exec_with_redirect(
            "ostree",
            ["admin",
             "--sysroot=" + self._physroot,
             "deploy",
             "--os=" + self._data.osname,
             self._data.remote + ':' + ref]
        )

        log.info("ostree admin deploy complete")
        self.report_progress(_("Deployment complete: {}").format(ref))


class PullRemoteAndDeleteTask(Task):
    """Task to pull an OSTree remote and delete it."""

    def __init__(self, data):
        """Create a new task.

        :param data: an RPM OSTree configuration
        """
        super().__init__()
        self._data = data

    @property
    def name(self):
        return "Pull OSTree Remote"

    def run(self):
        """Pull a remote and delete it.

        All pulls in our code follow the pattern pull + delete.

        :raise: PayloadInstallationError if the pull fails
        """
        # pull requires this for some reason
        mainctx = create_new_context()
        mainctx.push_thread_default()

        cancellable = None

        # Variable substitute the ref: https://pagure.io/atomic-wg/issue/299
        ref = RpmOstree.varsubst_basearch(self._data.ref)

        self.report_progress(
            _("Starting pull of {branch_name} from {source}").format(
                branch_name=ref, source=self._data.remote
            )
        )

        progress = OSTree.AsyncProgress.new()
        progress.connect('changed', self._pull_progress_cb)

        pull_opts = {'refs': Variant('as', [ref])}
        # If we're doing a kickstart, we can at least use the content as a reference:
        # See <https://github.com/rhinstaller/anaconda/issues/1117>
        # The first path here is used by <https://pagure.io/fedora-lorax-templates>
        # and the second by <https://github.com/projectatomic/rpm-ostree-toolbox/>
        # FIXME extend tests to cover this part of code
        if OSTree.check_version(2017, 8):
            for path in ['/ostree/repo', '/install/ostree/repo']:
                if os.path.isdir(path + '/objects'):
                    pull_opts['localcache-repos'] = Variant('as', [path])
                    break

        sysroot_file = Gio.File.new_for_path(conf.target.physical_root)
        sysroot = OSTree.Sysroot.new(sysroot_file)
        sysroot.load(cancellable)
        repo = sysroot.get_repo(None)[1]
        # We don't support resuming from interrupted installs
        repo.set_disable_fsync(True)

        try:
            repo.pull_with_options(self._data.remote,
                                   Variant('a{sv}', pull_opts),
                                   progress, cancellable)
        except GError as e:
            raise PayloadInstallationError("Failed to pull from repository: %s" % e) from e

        log.info("ostree pull: %s", progress.get_status() or "")
        self.report_progress(_("Preparing deployment of {}").format(ref))

        # Now that we have the data pulled, delete the remote for now. This will allow a remote
        # configuration defined in the tree (if any) to override what's in the kickstart.
        # Otherwise, we'll re-add it in post.  Ideally, ostree would support a pull without adding
        # a remote, but that would get quite complex.
        repo.remote_delete(self._data.remote, None)

        mainctx.pop_thread_default()

    def _pull_progress_cb(self, async_progress):
        status = async_progress.get_status()
        outstanding_fetches = async_progress.get_uint('outstanding-fetches')

        if status:
            self.report_progress(status)
        elif outstanding_fetches > 0:
            bytes_transferred = async_progress.get_uint64('bytes-transferred')
            fetched = async_progress.get_uint('fetched')
            requested = async_progress.get_uint('requested')
            formatted_bytes = format_size_full(bytes_transferred, 0)

            if requested == 0:
                percent = 0.0
            else:
                percent = (fetched * 1.0 / requested) * 100

            self.report_progress(
                _("Receiving objects: {percent}% ({fetched}/{requested}) {bytes}").format(
                    percent=int(percent), fetched=fetched, requested=requested,
                    bytes=formatted_bytes
                )
            )
        else:
            self.report_progress(_("Writing objects"))


class SetSystemRootTask(Task):
    """The installation task for setting up the system root."""

    def __init__(self, physroot):
        """Create a new task.

        :param str physroot: a path to the physical root
        """
        super().__init__()
        self._physroot = physroot

    @property
    def name(self):
        return "Set OSTree system root"

    def run(self):
        """Reload and find the path to the new deployment."""
        sysroot_file = Gio.File.new_for_path(self._physroot)
        sysroot = OSTree.Sysroot.new(sysroot_file)
        sysroot.load(None)

        deployments = sysroot.get_deployments()
        assert len(deployments) > 0

        deployment = deployments[0]
        deployment_path = sysroot.get_deployment_directory(deployment)
        set_system_root(deployment_path.get_path())
